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InCl3/Me3SiCl-catalyzed direct michael addition of enol acetates to alpha,beta-unsaturated ketones

The direct Michael addition of enol acetates to alpha,beta-unsaturated ketones was achieved using a combination of Lewis acid catalysts, InCl 3 and Me3SiCl, which furnished stable enol-form products that could be further transformed into functionalized 1,5-diketones by reactions with various electrophiles.

Reference£º
Synthesis and Crystal Structure of a Chiral?C3-Symmetric Oxygen Tripodal Ligand and Its Applications to Asymmetric Catalysis,
Chiral lanthanide(III) complexes of sulphur¨Cnitrogen¨Coxygen ligand derived from aminothiourea and sodium?D-camphor-¦Â-sulfonate

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Synthesis of gamma-keto-delta-alkenyl-phosphonates and phosphine oxides as precursors of novel phosphono-pyrazoline and pyrazole derivatives

Herein we report the synthesis of gamma-keto-delta-alkenyl-phosphonates and phosphine oxides by two versions of strategy (a) which involves the addition of dialkyl phosphites to alpha,alpha?-diarylideneketones, and by strategy (b) which utilizes the reaction of P-chlorodiphenylphosphine with diarylidene ketones in acetic acid. On reaction with hydrazine derivatives, gamma-keto-delta-alkenyl-phosphonates and phosphine oxides give 3-phosphonoethylpyrazoline derivatives which can be converted into the corresponding aromatic pyrazoles by oxidative dehydrogenation, using sodium nitrite as oxidizing agent.

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Scope and mechanism of the Pt-catalyzed enantioselective diboration of monosubstituted alkenes

The Pt-catalyzed enantioselective diboration of terminal alkenes can be accomplished in an enantioselective fashion in the presence of chiral phosphonite ligands. Optimal procedures and the substrate scope of this transformation are fully investigated. Reaction progress kinetic analysis and kinetic isotope effects suggest that the stereodefining step in the catalytic cycle is olefin migratory insertion into a Pt-B bond. Density functional theory analysis, combined with other experimental data, suggests that the insertion reaction positions platinum at the internal carbon of the substrate. A stereochemical model for this reaction is advanced that is in line both with these features and with the crystal structure of a Pt-ligand complex.

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Synthesis and catalytic alcohol oxidation and ketone transfer hydrogenation activity of donor-functionalized mesoionic triazolylidene ruthenium(ii) complexes

We report on the synthesis of a variety of C,E-bidentate triazolylidene ruthenium complexes that comprise different donor substituents E (E = C: phenyl anion; E = O: carboxylate, alkoxide; E = N: pyridine at heterocyclic carbon or nitrogen). Introduction of these donor functionalities is greatly facilitated by the synthetic versatility of triazoles, and their facile preparation routes. Five different complexes featuring a C,E-coordinated ruthenium center with chloride/cymene spectator ligands and three analogous solvento complexes with MeCN spectator ligands were prepared and evaluated as catalyst precursors for direct base- and oxidant-free alcohol dehydrogenation, and for transfer hydrogenation using basic iPrOH as a source of dihydrogen. In both catalytic reactions, the neutral/mono-cationic complexes with chloride/cymene spectator ligands performed better than the solvento ruthenium complexes. The donor functionality had a further profound impact on catalytic activity. For alcohol dehydrogenation, the C,C-bidentate phenyl-triazolylidene ligand induced highest conversions, while carboxylate or pyridine donor sites gave only moderate activity or none at all. In contrast, transfer hydrogenation is most efficient when a pyridyl donor group is linked to the triazolylidene via the heterocyclic carbon atom, providing turnover frequencies as high as 1400 h-1 for cyclohexanone transfer hydrogenation. The role of the donor group is discussed in mechanistic terms.

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Room-Temperature Direct beta-Arylation of Thiophenes and Benzo[b]thiophenes and Kinetic Evidence for a Heck-type Pathway

The first example of a regioselective beta-arylation of benzo[b]thiophenes and thiophenes at room temperature with aryl iodides as coupling partners is reported. This methodology stands out for its operational simplicity: no prefunctionalization of either starting material is required, the reaction is insensitive to air and moisture, and it proceeds at room temperature. The mild conditions afford wide functional group tolerance, often with complete regioselectivity and high yields, resulting in a highly efficient catalytic system. Initial mechanistic studies, including 13C and 2H KIEs, suggest that this process occurs via a concerted carbo-palladation across the thiophene double bond, followed by a base-assisted anti-elimination.

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Mild hydrosulfenylation of Olefins under neutral conditions using a defined NHC-ligated iron-sulfur catalyst

A defined NHC-Fe-S complex proved to be an efficient catalyst for the selective hydrosulfenylation of alpha,beta-unsaturated ketones or vinylnitriles. A wide range of different aliphatic thiols were transferred in this atom-economic reaction into the corresponding thioethers. Mild reaction conditions, equimolar amounts of substrates, low catalyst loadings, and mild reaction conditions are characteristic for this transformation.

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The dibenzylideneacetone adducts of uranyl bis(beta-diketonates). The low temperature NMR behaviour and molecular structure of [UO2(TTA)2¡¤DBA]

Uranyl complexes of the type [UO2(OO)2¡¤DBA] (OO = TTA, DBM and BA) have been prepared and characterized by 1H, 19F and 13C{1H} NMR, IR spectroscopic techniques and elemental analyses. The low temperature behaviour of the complex [UO2 (TTA)2¡¤DBA] was studied by the 19F NMR technique and its structure solved by single-crystal X-ray diffraction. The structure determination shows that the uranium atom has pentagonal-bipyramidal geometry with the four oxygen atoms of TTA and one oxygen atom of DBA lying on the basal plane and two uranyl oxygen atoms occupy the apices.

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Selective reactivity of electron-rich aryl iodides in the Heck arylation of disubstituted alkenes catalyzed by palladium-arylurea complexes

A catalyst consisting of 1 mol % of the 1:2 complex of Pd(OAc)2 with N-(4-carbethoxyphenyl)urea promotes the Heck arylation of 2- or 3-substituted, conjugated esters, nitriles, aldehydes, and ketones (an uncharacteristically broad range of substrates), but only with electron-rich aryl iodides (an uncharacteristically narrow range of halides).

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Efficient synthesis of optically active 4-nitro-cyclohexanones via bifunctional thiourea-base catalyzed double-Michael addition of nitromethane to dienones

Thiourea-modified cinchona alkaloids as bifunctional catalysts and a base could catalyze a stepwise [5+1] cyclization of divinyl ketones with nitromethane via double Michael additions, furnishing optically active 4-nitro- cyclohexanones with good yields, excellent diastereoselectivities (>20:1) and high enantiomeric ratios (up to 97:3). The Royal Society of Chemistry.

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Copper-catalyzed aerobic cascade cycloamination and acyloxylation: A direct approach to 4-acyloxy-1H-pyrazoles

A novel direct transformation of hydrazones to acyloxylated pyrazoles by copper-catalyzed regioselective olefinic C(sp2)-H bond cycloamination and acyloxylation was performed under mild conditions, which combines the formation of the pyrazole skeleton and installation of an acyloxyl group in a single step, using facile carboxylic acids as the acyloxylation reagents.

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